Difference between revisions of "SU753"
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= Description = | = Description = | ||
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| + | In this module are implemented 10 high voltage digital output up to 30V | ||
= Block Diagram = | = Block Diagram = | ||
Revision as of 10:02, 2 May 2016
Contents
Description
In this module are implemented 10 high voltage digital output up to 30V
Block Diagram
Front panel
Back Connector
SU753 pin table (direction shown for the SU board!)
power in +5V 2 1 +5V in power
NC - - 4 3 - - NC
NC - - 6 5 - - NC
NC - - 8 7 - - NC
NC - - 10 9 - - NC
NC - - 12 11 - - NC
LVTTL in DATA<10> 14 13 - - NC
LVTTL in DATA<9> 16 15 - - NC
LVTTL in EN 18 17 - - NC
LVTTL in SRIAL 20 19 - - NC
LVTTL in DATA<8> 22 21 FAULT out LVTTL
LVTTL in DATA<6> 24 23 DATA<7> in LVTTL
LVTTL in CSn 26 25 DATA<5> in LVTTL
LVTTL in SDI 28 27 SCLK in LVTTL
LVTTL in DATA<4> 30 29 SDO out LVTTL
LVTTL in DATA<2> 32 31 DATA<3> in LVTTL
LVTTL in PUSHPL 34 33 DATA<1> in LVTTL
power in GND 36 35 GND in power
Power consumption
Current consumption from the external power supply without load is: Op Ampl 2-6 mA, MAX14900E <0.5 mA. The internal DC-DC converter consumes about 50 mA unloaded. In total, when configured to use the internal DC-DC converter, unloaded about 57 mA. Fully loaded, the DC-DC converter consumes about 0.5 A.
+5V -> 57 mA
Measurement
Note: the operational amplifier was supplied with 18.5V from its voltage regulator in these tests. The MAX14900E chip was supplied directly from the DC-DC-converter.
One channel per group, no load
Rising edge
Falling edge
MAX14900E (1..8), comparison with/without load of 10k || 100pF
Rising edge
Falling edge
Op Ampl (9..10), comparison with/without load of 10k || 100pF
Rising edge
Falling edge
Compatibility
This module is compatible with all base boards
Power supply
The MAX chip has a SPI interface, which is used to read back the status (on | off | failure), see the datasheet for more details. The status of the Op Ampl channels can not be read back!
The internal DC-DC Converter can deliver max about 80 mA. If more needed, please use the external power supply.
The MAX14900E chip can drive up to 100 mA per channel, the operational amplifier about 50 mA (but there are serial resistors of 100 Ohm there!). Use the MAX channels for more current.
The voltage supply of the MAX14900E chip can be either from the DC-DC Converter or from the external power supply input and should not exceed 36V!
The voltage supply of the 2 operational amplifier channels can be different from the rest -> either DC-DC-Converter or External -> direct or through the own voltage regulator. The max voltage supply of the operational amplifier is 32V! The max input voltage of its voltage regulator is 30V!
Channels 9..10
The two Op Ampl channels 9..10 use only pins DATA<9> and DATA<10>. The other pins control the MAX14900E chip and thus only channels 1..8!
Channels 1..8
Some pins have different meaning in SERIAL mode. The present LogicBox designs use the parallel mode (SRIAL=0).
FAULT is open drain and active low, global for the MAX chip.
PSUSHPL is global for the MAX chip and should be 1 for normal operation. Otherwise the MAX outputs will only pull high!
EN is a global pin and should be 1 for normal operation. Single channels can not be enabled/disabled.
The SPI interface in parallel mode is used only to read back the status (on|off|fail) of channels 1..8.
